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分泌型免疫,特别涉及口腔。

Secretory immunity with special reference to the oral cavity.

机构信息

Laboratory for Immunohistochemistry and Immunopathology (LIIPAT), Centre for Immune Regulation (CIR), University of Oslo, Oslo, Norway.

出版信息

J Oral Microbiol. 2013;5. doi: 10.3402/jom.v5i0.20401. Epub 2013 Mar 11.

DOI:10.3402/jom.v5i0.20401
PMID:23487566
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3595421/
Abstract

The two principal antibody classes present in saliva are secretory IgA (SIgA) and IgG; the former is produced as dimeric IgA by local plasma cells (PCs) in the stroma of salivary glands and is transported through secretory epithelia by the polymeric Ig receptor (pIgR), also named membrane secretory component (SC). Most IgG in saliva is derived from the blood circulation by passive leakage mainly via gingival crevicular epithelium, although some may be locally produced in the gingiva or salivary glands. Gut-associated lymphoid tissue (GALT) and nasopharynx-associated lymphoid tissue (NALT) do not contribute equally to the pool of memory/effector B cells differentiating to mucosal PCs throughout the body. Thus, enteric immunostimulation may not be the best way to activate the production of salivary IgA antibodies although the level of specific SIgA in saliva may still reflect an intestinal immune response after enteric immunization. It remains unknown whether the IgA response in submandibular/sublingual glands is better related to B-cell induction in GALT than the parotid response. Such disparity is suggested by the levels of IgA in submandibular secretions of AIDS patients, paralleling their highly upregulated intestinal IgA system, while the parotid IgA level is decreased. Parotid SIgA could more consistently be linked to immune induction in palatine tonsils/adenoids (human NALT) and cervical lymph nodes, as supported by the homing molecule profile observed after immune induction at these sites. Several other variables influence the levels of antibodies in salivary secretions. These include difficulties with reproducibility and standardization of immunoassays, the impact of flow rate, acute or chronic stress, protein loss during sample handling, and uncontrolled admixture of serum-derived IgG and monomeric IgA. Despite these problems, saliva is an easily accessible biological fluid with interesting scientific and clinical potentials.

摘要

唾液中存在的两种主要抗体类别是分泌型免疫球蛋白 A(SIgA)和 IgG;前者由唾液腺基质中的局部浆细胞(PC)产生为二聚体 IgA,并通过聚合免疫球蛋白受体(pIgR),也称为膜分泌成分(SC)穿过分泌上皮进行转运。唾液中的大多数 IgG 是通过被动渗漏主要通过牙龈沟上皮从血液循环中而来,尽管有些可能在牙龈或唾液腺中局部产生。肠道相关淋巴组织(GALT)和鼻咽相关淋巴组织(NALT)对全身黏膜 PC 分化为记忆/效应 B 细胞的池的贡献并不相等。因此,尽管肠道免疫接种后唾液中特异性 SIgA 的水平仍可能反映肠道免疫反应,但肠道免疫刺激可能不是激活唾液 IgA 抗体产生的最佳方法。尚不清楚下颌下/舌下腺中的 IgA 反应是否比腮腺反应更好地与 GALT 中的 B 细胞诱导相关。艾滋病患者下颌下分泌物中的 IgA 水平提示存在这种差异,这与他们高度上调的肠道 IgA 系统平行,而腮腺 IgA 水平降低。腮腺 SIgA 更可能与腭扁桃体/腺样体(人 NALT)和颈部淋巴结中的免疫诱导相关,这得到了在这些部位进行免疫诱导后观察到的归巢分子谱的支持。其他几个变量会影响唾液分泌物中的抗体水平。这些包括免疫测定的重现性和标准化困难、流速的影响、急性或慢性应激、样品处理过程中的蛋白质损失以及血清衍生 IgG 和单体 IgA 的不受控制的混合。尽管存在这些问题,但唾液是一种易于获取的生物流体,具有有趣的科学和临床潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9685/3595421/cb22e7dd7825/JOM-5-20401-g014.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9685/3595421/8294ad33c627/JOM-5-20401-g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9685/3595421/b8e4a1d29d31/JOM-5-20401-g011.jpg
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